U.S. patent number 3,665,574 [Application Number 05/038,660] was granted by the patent office on 1972-05-30 for tool holder for cable splicing tool.
This patent grant is currently assigned to AMP Incorporated. Invention is credited to Christopher Kingsley Brown, Carmen Achille Cea, Thomas Parkison Warne, Jr..
United States Patent |
3,665,574 |
Brown , et al. |
May 30, 1972 |
TOOL HOLDER FOR CABLE SPLICING TOOL
Abstract
Tool Holder for Cable Splicing Tool has clamping means to clamp
the holder to a messenger cable associated with the cable.
Suspending arm is adjustably secured to the clamping means and has
a length such that it will extend laterally or transversely of the
cable axis past the cable. A second clamping means is provided on
the end of the suspending arm which receives the cable splicing
tool, adjustment of both the suspending arm and the tool being
permitted in both a rotational sense and an axial sense so that any
desired attitude of the tool can be achieved.
Inventors: |
Brown; Christopher Kingsley
(Winston-Salem, NC), Cea; Carmen Achille (Winston-Salem,
NC), Warne, Jr.; Thomas Parkison (Winston-Salem, NC) |
Assignee: |
AMP Incorporated (Harrisburg,
PA)
|
Family
ID: |
21901180 |
Appl.
No.: |
05/038,660 |
Filed: |
May 19, 1970 |
Current U.S.
Class: |
29/755; 29/281.4;
29/760 |
Current CPC
Class: |
H01R
43/0421 (20130101); Y10T 29/53243 (20150115); Y10T
29/53974 (20150115); Y10T 29/53265 (20150115) |
Current International
Class: |
H01R
43/04 (20060101); H01R 43/042 (20060101); H05k
003/32 (); H01r 043/04 () |
Field of
Search: |
;29/23MW,23HT,23J,23R,23P |
References Cited
[Referenced By]
U.S. Patent Documents
Primary Examiner: Eager; Thomas H.
Claims
We claim:
1. A tool holder for supporting a splicing tool proximate to a
multi-conductor cable, said cable having a supporting member
extending thereabove and substantially parallel to said cable, said
tool comprising a tool head and actuating means extending from said
tool head, said tool holder comprising:
first clamping means having clamping surfaces for engagement with
said supporting member for clamping said tool holder to said
supporting member,
a suspending arm secured to said first clamping means and extending
transversely of said clamping surfaces, said arm having an end
portion which is spaced from said first clamping means by a
distance greater than the distance between said supporting member
and said cable,
second clamping means on said end portion of said suspending arm,
said second clamping means being adapted to clampingly engage said
actuating means of said tool with said head disposed proximate to
said cable whereby
the conductors of said cable can be positioned in said tool head
and connected upon operation of said actuating means.
2. A tool holder as set forth in claim 1 wherein said suspending
arm is adjustably secured to said first clamping means to permit
adjustment of said arm in the direction of its length thereby to
permit selective positioning of said end portion of said arm and
said tool head with respect to said cable.
3. A tool holder as set forth in claim 1 wherein said suspending
arm is adjustably secured to said first clamping means to permit
selective positioning of said arm in a rotational sense with
respect to said supporting member.
4. A tool holder as set forth in claim 1 wherein said second
clamping means adjustably engages said tool to permit rectilinear
adjustment of said tool towards and away from said cable.
5. A tool holder as set forth in claim 1 wherein said second
clamping means adjustably engages said tool to permit rotational
adjustment of said tool with respect to said second clamping
means.
6. A tool holder for supporting a splicing tool proximate to a
multi-conductor cable, said cable having a supporting member
extending thereabove and substantially parallel, to said cable said
tool comprising a tool head and handle means extending from said
tool head, said tool holder comprising:
first clamping means having clamping surfaces for engagement with
said supporting member for clamping said tool holder to said
supporting member,
a suspending arm secured to, and extending from, said first
clamping means, said suspending arm being secured to said first
clamping means by securing means which permits selective
positioning of said arm in a rotational sense, with respect to said
supporting member, and in the direction of the length of said
arm,
second clamping means on the end of said arm, said second clamping
means being adapted to engage said handle of said tool selectively
along the length thereof and said second clamping means being
selectively positionable on said end of said arm in a rotational
sense.
Description
BACKGROUND OF THE INVENTION
It is now common practice to connect the conductors of a
multi-conductor cable to each other by means of a crimping tool
which is adapted to trim the ends of two wires positioned therein
and crimp an electrical connector onto the trimmed ends in a single
operation. Such cable splicing operations are frequently carried
out on aerial telephone cables as, for example, when two cable
sections are being spliced during the installation of a new cable
or where tap wires are being connected to the conductors in an
existing cable.
Subsequent to the widespread adoption of the use of crimpable
connectors in cable splicing operations, a tool holder was
developed which functions to support the crimping tool on the
messenger cable which is associated with the multi-conductor cable
so that the lineman would have both hands free for the operations
of inserting the connectors in the tool, selecting the conductors
in the cable which are to be connected, and actuating the crimping
tool. An added margin of safety is obtained when a tool holder is
used because of the fact that the lineman is not required to hold
the tool with one of his hands and an increase in the productivity
of the lineman is obtained for the same reason. This previously
known tool holder, disclosed and claimed in application Ser. No.
683,856, now U. S. Pat. No. 3,528,155, has, therefore, proved
highly satisfactory and is in widespread use. However, it has also
been discovered that certain cable splicing operations require a
higher degree of adjustability of the tool as regards the position
of the tool head with respect to the cable axis, the attitude of
the tool with respect to the cable axis, and the distance
separating the tool and the cable, than can be provided by the
known type of tool holder. This requirement of added versatility is
particularly necessary where the splice between the cable ends is
being made with a so-called "ready access box", an enclosure and
support for a cable splice which is commonly used in the telephone
industry.
An object of the present invention is to provide an improved tool
holder for supporting a connector crimping tool in close proximity
to a multi-conductor cable. A further object is to provide a tool
support which permits location of the tool in a wide variety of
positions and in any desired attitude relative to the cable. A
further object is to provide a tool holder which is sturdy and
durable, which is of simplified construction, and which can be
mounted on, or removed from, the messenger cable associated with
the multi-conductor cable in a very short time. A still further
object is to provide a tool holder which permits rapid change in
the position of the tool during use.
These and other objects of the invention are achieved in a
preferred embodiment thereof which is described in the foregoing
abstract, which is described in detail below, and which is shown in
the accompanying drawing in which:
FIG. 1 is a perspective view of a tool holder in accordance with
the invention mounted on a messenger cable adjacent to a splicing
operation which is being carried out.
FIG. 2 is a side view of a tool holder of FIG. 1 looking from the
left in FIG. 1.
FIG. 3 is a view taken along the lines 3--3 of FIG. 2.
FIG. 4 is a perspective view of a ready access box or enclosure on
a telephone cable which contains a completed cable splice.
Referring first to FIG. 4, a typical cable splice between the ends
2, 4 of two cable sections is commonly contained in a splice
support and enclosure 10 of a type referred to as a ready access
box. The cable sections are supported by a messenger cable 6 which
extends between utility poles and from which the multi-conductor
cable is suspended by suitable lacing material 8.
The enclosure 10 comprises an elongated base member 12 (FIG. 1), of
suitable insulating material such as rubber, having upwardly
extending flanges 14 on its ends. Metal bars 16, 26 are positioned
against the upper and lower surfaces respectively of the base
member 12 and secured to each other by suitable fasteners 13 which
extend through the base member as indicated. Two-part clamps 18 are
secured to the ends of the metal bar 16 and extend upwardly to the
cable ends and are secured to the cable ends by suitable fasteners
22 which hold the two parts of the clamps against the cable
sections. A frame bar 24 is secured to the upper ends of the clamps
18 and extends parallel to the cable axis so that the two cable
ends will be held in substantial alignment with each other to
facilitate the splicing operation in which the wires 3 in the cable
end 2 are connected to the wires 5 in the cable end 4. The metal
bar 26 on the underside of the base member 12 extends axially
beyond the flanges 14 and is suspended from the messenger cable 6
by suspending arms 28 which extend upwardly, around the cable ends,
and which have their upper ends secured to the messenger cable 6 by
suitable clamps 30. It will thus be apparent that the weight of the
enclosure is supported directly by the messenger cable and the
enclosure, in turn, supports the cable ends during splicing.
It should be mentioned that in the finished splice as shown in FIG.
4, a cover 32 is positioned over the frame bar 24 and has its lower
edges held against the base member 12 by clamps 36 which are
rotatably mounted on the underside of the metal bar 26 so that they
can be swung from the position of FIG. 1 to the position shown in
FIG. 4 after the cover has been placed over the splice. The cover
may include integral sealing boots 34 as shown which embrace the
outer coverings of the cable ends to prevent the admission of
moisture. These sealing boots are held in close engagement with the
cable ends and are held in their closed positions by means of
simple wire springs 38 mounted in the suspending arms 28.
A tool holder 40 in accordance with the instant invention is
adapted to support a cable splicing tool 42 in virtually any
desired position and attitude with respect to the work area during
a splicing operation. It will be understood that any desired type
of splicing tool can be used in conjunction with a tool holder of
the type shown, the tool 42 being constructed in accordance with
the principles disclosed in the U. S. Pat. to Vickery and Rheem,
No. 3,328,872. The splicing tool shown has a head 44 which includes
a crimping die for crimping an open-U type connector 45 onto the
ends of two wires. The tool head 44 is integral with a first handle
46 which is of generally arcuate cross section and which extends
downwardly in FIG. 1 and is held in a fixture described below. An
anvil 48 is provided in the tool head and a wire cutter 50 mounted
on the anvil for movement therewith is adapted to enter a wire
receiving slot 52 in the head portion of the tool. The anvil 48
extends from a plate 54 which extends between the sides of the
handle 46 and which was pivoted at 57 to the upper portion of this
handle as viewed in FIG. 2.
A second handle 56 has its inner end pivotally connected at 58 to
the plate 54 and a link 62 has one end pivoted to the handle 56 and
its other end pivotally mounted between the sidewalls of the fixed
handle 46 at the lower end thereof. The disclosed linkage comprises
a conventional over-center toggle mechanism of a type commonly used
for plier type tools.
The handle 46 of the tool is held in a fixture comprising a block
64 which may be of a firm polymeric material, having channel-shaped
recess for reception of the handle. By virtue of the fact that the
block 64 and an additional block 64' described below, are of
insulating material, the tool is thoroughly in sulated from the
messenger cable. A U-shaped clamp has arms 66 which extend through
openings in the sides of the block 64 and the ends of these arms
are inwardly turned for engagement with the edges of the handle.
The handle is securely held in the block by means of a clamping
screw 68 which is threaded through the bight portion 70 of the
clamp and which has a toggle member 71 on its end that bears
against a recess in the block 64. It will be apparent that by
merely loosening the screw 68, the tool can be moved upwardly or
downwardly from the position shown in FIG. 2 and clamped in its new
position thereby to move the tool head 44 towards and away from the
cable axis.
Block 64 has an enlarged portion 65 extending leftwardly from its
upper end as viewed in FIG. 2, which is secured to the lower end 72
of a suspending arm 74 in a manner shown in FIG. 3. A hexagonal rod
is welded or otherwise secured to the lower end 72 of the
suspending arm and extends laterally of the arm into a hexagonal
insert 78 in the enlarged portion 65 of the block 64. The rod 76 is
threaded at its lefthand end for the reception of a screw 80 which
extends through the enlarged portion of the block and has a head 88
on the lefthand side of the block. A spring 86 is interposed
between the inner side of the head 88 and the end of an enlarged
recess 84 in the block to prevent loosening of the screw 88 during
use.
The securing means shown in FIG. 3 permits adjustment in a
rotational sense of the tool about an axis extending through the
screw 80 and the bar 76 by pulling the arm rightwardly as viewed in
FIG. 3 with concomitant compression of spring 86 until the rod 76
is removed from insert 78. The block 64 is then rotated relative to
rod 76 to the desired position and the rod is reinserted into the
insert.
The arm 76 extends upwardly past the axis of the cable and has an
outwardly extending arcuate upper section 90 and a downwardly
extending straight portion 92, the lower end of this straight
portion being rightwardly bent and being secured to the
intermediate section of the arm 74 by welding in order to add
rigidity to the arm. The straight section 92 of the arm is
adjustably clamped in a block 64' by means of a U-shaped clamping
member 66' and a clamping screw 68' as shown. The clamping assembly
64', 66', 68' may be identical to the clamping assembly having
corresponding unprimed reference numerals described above and the
upper clamping assembly need not therefore be described in detail.
It will be apparent that the straight section 92 of the arm can be
adjusted upwardly or downwardly as viewed in FIG. 2 by merely
loosening the screw 68; moving the arm section 92 to the desired
position and tightening the screw.
The enlarged section 65' of the block 64' has a hollow hexagonal
insert 78' which receives a short hexagonal bar section 96 which is
integral with and extends from a clamping plate 98. The clamping
plate 98 and an opposed clamping plate 100 clamp the arm to the
messenger cable 6 by means of a screw 106 in the end of a handle
108, this screw being threaded through a suitable opening in the
plate 100 so that when the handle is turned in a direction to
tighten the two plates onto the messenger cable, the entire
assembly will be held on the cable. Advantageously, a spring 110 is
interposed between the surfaces of the plates 100, 98 to urge these
plates apart when the screw 106 is loosened. As shown in FIG. 2,
opposed surface portions of the plates 98, 100 may be recessed to
provide clamping surfaces for the messenger cable.
Some of the advantages of the disclosed embodiment of the invention
will be apparent from an inspection of FIG. 1 in the light of the
following remarks.
It is desirable when the ends of two cable sections are being
spliced, to have a minimum amount of slack wire in each of the
connections between one of the wires 3 and one of the wires 5. If
the connections are to be made with only a slight amount of slack,
the connector must be crimped onto the wire ends at a location
relatively close to the axis of the cable since the crimped
connection must be removed from the tool after the crimping
operation has been carried out and some slack must be provided to
permit such removal. Where the tool is supported by a tool holder
in accordance with the invention, the head of the tool can be
located in any desired position; that is at any desired distance
from the axis of the cable and in any desired attitude with respect
to the axis of the cable, and finally in any desired angular
orientation with respect to the axis of the cable. It follows that
while a splice is being made, the first splices may be formed while
the tool head is located relatively close to the cable axis. As
additional splices are made, the tool can be moved relatively away
from the cable by means of its adjustable mounting on the lower end
of the suspending arm and can be positioned in the most
advantageous attitude from a time and motion standpoint for the
lineman. As the volume of the splices increases, the entire arm can
be swung around the axis of the messenger cable 6 or around the
axis of the upper hexagonal mounting bar 96 to provide clearance
for the previously completed connections. The holder can, of
course, be moved axially along the messenger cable 6 when desired
and can be mounted on or removed from the cable by merely
tightening or loosening the screw 106 on the end of the handle
108.
While the drawing shows a ready access box having two entering
cables, it is common practice to provide such enclosures at
junction points for three cables. The instant invention is also
advantageous where this latter condition exists because of the
large number of possible positions in which the tool can be
clamped.
Changes in construction will occur to those skilled in the art and
various apparently different modifications and embodiments may be
made without departing from the scope of the invention. The matter
set forth in the foregoing description and accompanying drawings is
offered by way of illustration only.
* * * * *